480 CHAPTER SEVEN Fluid Flow in Pipes FLUID MECHANICS & HYDRAULICS Problem 7-78 A capillary tube of inside diameter 6 mm connects tan A and open container B, as shown in the Figure. The liquid in A, B, and capillary CD is water having a specific weight of 9780 N/m and viscosity of 0.0008 kg/(m-s). The pressure pa - 34.5 kPa. Assume laminar flow. (a) Determine the head loss in the pipe in terms of the discharge Q. Ans: 11,0580 (b) Determine the discharge in L/s. Ans: 0.00787 (c) Determine the Reynolds Number. Ans: 2,079 1.4 m = 4,3 m Container B PA Air 下. 1 m 45 Tank A
480 CHAPTER SEVEN Fluid Flow in Pipes FLUID MECHANICS & HYDRAULICS Problem 7-78 A capillary tube of inside diameter 6 mm connects tan A and open container B, as shown in the Figure. The liquid in A, B, and capillary CD is water having a specific weight of 9780 N/m and viscosity of 0.0008 kg/(m-s). The pressure pa - 34.5 kPa. Assume laminar flow. (a) Determine the head loss in the pipe in terms of the discharge Q. Ans: 11,0580 (b) Determine the discharge in L/s. Ans: 0.00787 (c) Determine the Reynolds Number. Ans: 2,079 1.4 m = 4,3 m Container B PA Air 下. 1 m 45 Tank A
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![480
CHAPTER SEVEN
Fluid Flow in Pipes
FLUID MECHANICS
& HYDRAULICS
Problem 7-78
A capillary tube of inside diameter 6 mm connects tan A and open container B,
as shown in the Figure. The liquid in A, B, and capillary CD is water having a
specific weight of 9780 N/m and viscosity of 0.0008 kg/(m-s). The pressure pa
- 34.5 kPa. Assume laminar flow.
(a) Determine the head loss in the pipe in terms of the discharge Q.
Ans: 11,0580
(b) Determine the discharge in L/s.
Ans: 0.00787
(c) Determine the Reynolds Number.
Ans: 2,079
1.4 m
= 4,3 m
Container B
PA
Air
下.
1 m
45
Tank A](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa49b948d-5667-4f56-9f42-4992b4126ca9%2F44157378-aa42-4a2b-9356-c8f10518d6a2%2F12vvr2_processed.jpeg&w=3840&q=75)
Transcribed Image Text:480
CHAPTER SEVEN
Fluid Flow in Pipes
FLUID MECHANICS
& HYDRAULICS
Problem 7-78
A capillary tube of inside diameter 6 mm connects tan A and open container B,
as shown in the Figure. The liquid in A, B, and capillary CD is water having a
specific weight of 9780 N/m and viscosity of 0.0008 kg/(m-s). The pressure pa
- 34.5 kPa. Assume laminar flow.
(a) Determine the head loss in the pipe in terms of the discharge Q.
Ans: 11,0580
(b) Determine the discharge in L/s.
Ans: 0.00787
(c) Determine the Reynolds Number.
Ans: 2,079
1.4 m
= 4,3 m
Container B
PA
Air
下.
1 m
45
Tank A
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